CN1417775A - Magnetic disc unit with interval spacing mechanism - Google Patents

Abstract

A disk apparatus includes a disk in which information is recorded, a carriage arm having a head slider provided at a tip thereof, the head slider moving over the disk during a read/write operation and being placed at an evacuated position outside an area of the disk during a halt of the disk apparatus, a support base, and a inertia latch mechanism which slides on the support base from an original position to a latch position in response to an impacting force so as to latch the carriage arm when the disk apparatus is impacted, and slides on the support base from the latch position to the original position by disengaging from the carriage arm after dissipation of the impacting force, wherein the support base and the inertia latch mechanism are in contact with each other through at least one raised portion that prevents a single surface-to-surface contact from being dominant between the support base and the inertia latch mechanism.

Description

Disk set with interval pitch mechanism

Technical field

The present invention relates generally to disk set, especially relate to the disk set that has bracket arm, the tip place of this arm has magnetic head slider, and this arm is supported by the chassis so that can swing.

Background technology

The hard disk drive that wherein contains magnetic storage information is usually as the internal part in the computer.The notebook type portable computer when unexpectedly being impacted or dropping, tends to be impacted.Therefore, be configured in hard disk drive in the laptop, come, just require more to stand impact compared with the hard disk drive of desktop computer configuration as internal part.

As the hard disk drive of laptop internal part, adopted slope load scheme ( Ramp-load scheme), in this scheme, when hard disk drive was suspended, magnetic head slider was withdrawn from disk space, thereby improved shock proof performance.In addition, also adopt the inertial lock storage, when the direction of advancing along bracket arm when big impact applied, this latch is operation just.The inertial lock storage pins bracket arm and rotates to prevent its, thereby prevents that magnetic head slider from jumping on the disk that has stopped and preventing it from sliding on disk and destroy the data that write down thereon.

When impacting generation, the inertial lock storage needs operation reliably, and also needs to discharge reliably subsequently bracket arm.Also do not finish if discharge, when load was assigned, bracket arm just can not be swung, so cause hard disk drive to be out of order.

The synoptic diagram of Figure 1A and 1B has shown the inertial lock storage of the correlation technique that is configured in the hard disk drive.Shown subbase 10, lid 11 among the figure, and be used to pin bracket arm latch arm 12.Latch and have bearing 12a on the arm 12, it cooperates with stationary shaft 13 on standing in subbase 10, can be round stationary shaft 13 swings so that latch arm 12.

Latch the magnetic flux that releases in the magnetic circuit of arm 12 passive arm mechanisms and attract, so that be on the position of uncaging.When bigger impact takes place, latch arm 12 and latch the position with regard to swing and arrival, its pins bracket arm on this position, thereby prevents that bracket arm from rotating.When impulsive force disappears, latch arm 12 and turned back to original position by magnetic flux attracts again.

Latch the bearing 12a of arm 12, have surface 12a1 of the circular, flat on this bearing lower end and upper end and 12a2 respectively.Circular, flat surface 12a1 is placed on the circular, flat surface 13a1 of flange portion 13a of stationary shaft 13.In this way, latch the bearing 12a of arm 12, just keep surface contacting the surface with the flange portion 13a of stationary shaft 13.Latch arm 12 and swing, overcome the resistance that produces owing to the surperficial friction that contacts owing to sliding.Latch the circular, flat surface 12a1 of arm 12 and the circular, flat surface 13a1 of flange portion 13a, have because the bigger friction that the surface contact is produced.This may undesirably hinder the smoothness that latchs arm 12 and rotate.

Return after impulsive force disappears that the rotation of its origin-location is intact not to be become if latch arm 12, discharge the bracket arm that is latched and finally also just can not finish.Like this, just cause when load is assigned bracket arm not swing, thereby cause the fault of hard disk drive.

Summary of the invention

General objects of the present invention provides a kind of hard disk unit, and it has been got rid of basically because the limitation and the caused one or more difficult problems of shortcoming of correlation technique.

Each performance of the present invention and advantage will be seen clearly from instructions and accompanying drawing, perhaps can understand enforcement of the present invention by meeting the described theory of instructions.Each purpose of the present invention and other performances and advantage, will be understood and be reached by disk set, this disk set especially in instructions, has been pointed out with abundant, clear, terse and accurate term, points out so just to make common professional can implement this invention.

In order to reach and corresponding to these and other advantage of target of the present invention, these advantages are embodied and explanation widely at this, and disk set according to the invention comprises: the disk that has wherein write down information; Disposed the bracket arm of magnetic head slider on the tip, above disk, moved, and be placed in withdrawing from the position outside the disk zone at this bracket arm during the disk set operation suspension at this bracket arm during the read/write operation; A support plinth; And inertial lock storage, this latch impact power responds and slides from original position to latching the position on support plinth, pin bracket arm when being hit with convenient disk set, and this latch after impulsive force disappears turns back to origin-location from latching the position owing to unclamp bracket arm on support plinth, it is characterized in that: support plinth and inertial lock storage are raised part by at least one and are contacted with each other, and this part prevents from by single surface contacting of surface to be dominated between support plinth and the inertial lock storage.

That or those part of having raised, be owing to formed point type contact, linear contact or a plurality of discontinuous surface contact, thereby reduce the contact area between support plinth and the inertial lock storage, prevent from by single surface contacting of surface to be dominated between support plinth and the inertial lock storage.Can reduce sliding friction like this, and it is mobile to help sliding smoothly, thereby improves the reliability of inertial lock storage.

According to another aspect of the present invention, disk set comprises: the disk that has wherein write down information; Disposed the bracket arm of magnetic head slider on the tip, above disk, moved, and be placed in withdrawing from the position outside the disk zone at this bracket arm during the disk set operation suspension at this bracket arm during the read/write operation; The magnetic circuit of driven bracket arm; Support plinth; And inertial lock storage, this latch impact power responds and slides from original position to latching the position on support plinth, pin bracket arm when being hit with convenient disk set, and this latch responds owing to unclamping bracket arm and to attractive force and just turns back to the origin-location from latching the position on support plinth after impulsive force disappears, the inertial lock storage comprises that one has been mixed the part that metallic particles is made by synthetic resin, these metallic particles respond for the magnetic force that magnetic circuit produced, so that produce attractive force.

In above-mentioned disk set, a part of inertial lock storage has been mixed metallic particles by synthetic resin and has been made, and therefore this part just can be molded into enough shape and sizes that meets the requirements accurately.Use this part, just can accurately arrange each mechanical part,, thereby increase magnetic circuit in order to attract the power of inertial lock storage so that can make the gap smaller between this part and the magnetic circuit.

Other purposes of the present invention and other performances when reading following detailed explanation in conjunction with the accompanying drawings, will have been understood.

Description of drawings

The synoptic diagram of Figure 1A and 1B, the inertial lock storage of the correlation technique that is disposed in the demonstration hard disk drive;

The synoptic diagram of Fig. 2 A and 2B shows the hard disk drive that meets one embodiment of the invention;

The synoptic diagram of Fig. 3 shows the inertial lock storage that the present invention relates to;

Fig. 4 is the cut-open view that intercepts the inertial lock storage that plots along Fig. 2 A middle conductor IV-IV;

The synoptic diagram of Fig. 5 A to 5C, the ruuning situation of demonstration inertial lock storage when hard disk drive is subjected to impacting;

The synoptic diagram of Fig. 6 A and 6B, the ruuning situation of demonstration inertial lock storage after impulsive force disappears;

The synoptic diagram of Fig. 7 A and 7B, first variant of demonstration bearing;

The synoptic diagram of Fig. 8 A and 8B, second variant of demonstration bearing;

The synoptic diagram of Fig. 9 A and 9B, the 3rd variant of demonstration bearing;

The synoptic diagram of Figure 10 A to 10C, the variant of demonstration shaft component and lid;

The synoptic diagram of Figure 11, the variant of display latch arm; And

The synoptic diagram of Figure 12 A and 12B, the ruuning situation of inertial lock storage under the occasion that latchs arm of demonstration employing variant.

Embodiment

Hereinafter, be with reference to description of drawings each embodiment of the present invention.

The synoptic diagram of Fig. 2 A and 2B shows 2.5 inches the hard disk drive 20 that meets one embodiment of the invention.This hard disk drive is configured in the laptop as internal part.Fig. 2 A shows the hard disk drive 20 that lid has been removed.Fig. 2 B shows the cut-open view that intercepts the hard disk drive 20 that plots along Fig. 2 A middle conductor B-B.X1-X2 represents longitudinal direction, and Y1-Y2 represents horizontal direction, and Z1-Z2 then represents along the direction of height.

Hard disk drive 20 comprises: the subbase 21 with shallow sunk part, spindle motor 22 on the subbase 21, diameter is 2.5 inches and is fixed on epitrochanterian two disks 23 of spindle motor 22, be supported be convenient to round be configured on the subbase 21 the axle 25 and the swing bracket arm 26, be configured in the magnetic head slider 27 at bracket arm 26 tip places, be configured on the upper surface of subbase 21 and have the voice coil motor configuration so that the actuator 28 that bracket arm 26 is swung back and forth, be fixedly mounted in the slope member 39 on the subbase 21, and be configured in the inertial lock storage 29 on the upper surface of subbase 21.Subbase 21 and loam cake 30 form disk encapsulation 31 together, and this encapsulation is a sealed space.Disk 23 is accommodated in the disk encapsulation 31.Actuator 28 comprises bottom magnetic head group 35, and the top magnetic head group 37 that is covered with magnet 36.Magnetic head group 35, magnet 36 and magnetic head group 37 have constituted magnetic circuit together.Has a magnetic head on the end surface of magnetic head slider 27.

Hard disk drive 20 is used as the internal part of subnotebook PC, and its accepts electric power from battery so that operation.Its ruuning situation is as mentioned below.

Disk 23 is rotated along the A direction with several thousand rev/mins speed by spindle motor 22.Actuator 28 makes magnetic head slider 27 move above the upper surface of disk 23 owing to unsettled floating along radial direction along B1-B2 direction rocking bracket arm 26.So just can scan turning to of will scanning ( Truck), thereby make magnetic head carry out read/write to information.

Unload when giving an order when assigning from subnotebook PC, bracket arm 26 is just along the direction swing towards B1, so that be placed in withdrawing from the position shown in Fig. 2 A.The tip of bracket arm 26 is by 39 supportings of slope member, so that magnetic head slider 27 is in the state of withdrawing from outside disk 23 zones.In addition, spindle motor 22 operation suspensions of disk, thus hard disk drive 20 is placed park mode.

If assign load during park mode, spindle motor 22 just begins to rotate, and actuator 28 also begins to be driven.As a result, bracket arm 26 is just swung by the direction along B2, and unclamps from slope member 39, so that magnetic head slider 27 is installed on the disk 23 that is rotating.Magnetic head slider 27 is unsettled floating in disk 23 surfaces, thereby participate in the read and write to information.

Hereinafter, inertial lock storage 29 is described.

The synoptic diagram of Fig. 3 shows inertial lock storage 29.Inertial lock storage 29 comprise inertia balance arm 50 and serve as latch member latch arm 51.Latch arm 51 and pin bracket arm 26.When impact is applied on the hard disk drive 20, when it applies direction and makes bracket arm 26 swings, promptly when impact be that inertia balance arm 50 just is parked on the same position when the direction that parallels with X-Y plane that subbase 21 is extended applies.So, just swung round shaft component 80 with the arm 51 that latchs that subbase 21 moves.

The base portion 26a of bracket arm 26 has a horn shape part 26b, and it is outstanding that this part is actually the direction of X2 in Fig. 2 A.Latching arm 51 matches with horn shape part 26b.

As shown in Figure 3, latching arm 51 is die casting products of a synthetic resin, and the arm 61 that it comprises bearing 60, extend along direction from bearing 60, the arm 62 that extends along opposite direction from bearing 60, along the direction of Z2 the outstanding jut 61a of the tip of arm 61, along the direction of Z1 at the outstanding jut 62a of the tip of arm 62, and along the direction of Z1 outstanding jut 62b in the substrate of arm 62.Has a U-shaped steel member 63 that is engaged in wherein at the suprabasil jut 62b of arm 62.

The end of the bearing 60 on Z2 one side has along the outstanding jut 60a of the direction of Z2, and its cross-sectional profile is to be the semicircular of radius with r1 and to have annular shape, as shown in Figure 4.

The end of the bearing 60 on Z1 one side has along the outstanding jut 60b of the direction of Z1, and its cross-sectional profile is to be the semicircular of radius with r2 and to have annular shape, as shown in Figure 4.

Latch arm 51 be supported can be round shaft component 80 swing, this shaft component has flange portion 80a, at there, shaft component 80 stretches out from subbase 21, and the base of subbase is embedded in wherein, as Fig. 2 A with as shown in Figure 4.When latching arm 51 when swinging near actuator 28 widdershins, arm 61 makes that with regard in the injection 90 horn shape part 26b just moves along this track when bracket arm 26 counter-clockwise swings.

As shown in Figure 3, inertia balance arm 50 comprises: a long arm shape body 70; A bearing 71, it is made by synthetic resin, and in the inertia part that forms this arm shape body facing to the direction of Y2 in the end near arm shape body 70; A counterbalance weight 72, it is fixed on the lower surface of this arm shape body in the direction facing to Y2 in the end of arm shape body 70; And pin 73 and 74, they are connected respectively on the Y1 end of arm shape body 70 and from the Y1 end securely a segment distance place.The size and dimension of inertia balance arm 50 moves and balance round bearing 71 and in addition corresponding to swing, and has bigger moment of inertia.

The Z2 end of bearing 71 has along the outstanding jut 71a of the direction of Z2, and its cross-sectional profile is to be the semicircular of radius with r3 and to have annular shape, as shown in Figure 4.

The Z1 end of bearing 71 has along the outstanding jut 71b of the direction of Z1, and its cross-sectional profile is to be the semicircular of radius with r4 and to have annular shape, as shown in Figure 4.

As Fig. 2 A and shown in Figure 4, inertia balance arm 50 is supported round shaft component 81 swings, and this shaft component has flange portion 81a, and at there, shaft component 81 stretches out from subbase 21, and the base of subbase is embedded in wherein.Inertia balance arm 50 is positioned near actuator 28.That plane at inertia balance arm 50 swing places is X-Y planes, and bracket arm 26 is just swung in same plane.

The ruuning situation of inertial lock storage 29 is described hereinafter.

When the impact that puts on hard disk drive 20, be during hard disk drive park mode shown in Fig. 2 A, make the direction of bracket arm 26 counter-clockwise swings and when carrying out, inertial lock storage 29 has just moved along one.

When hard disk drive 20 was in park mode, inertial lock storage 29 was positioned like that shown in Fig. 2 A and Fig. 5 A.When the magnetic flux attracts of leaking out in the magnetic circuit of steel member 63 passive arm mechanisms 28, latch arm 51 and just promoted clockwise, so jut 61a just contacts with the step 21a of subbase 21, and the further swing of latching arm 51 is restricted.Arm 61 is positioned at outside the track 90.The pin 74 of inertia balance arm 50 contacts with the lateral surfaces of X2 one side of arm 61.A part of the Y1 end of close arm shape body 70 strides across arm 62, and pin 73 is facing to the lateral surfaces of X1 one side of arm 62.

Put on hard disk drive 20 and accelerate counterclockwise when mobile when impacting along X-Y plane, bracket arm 26 is just attempted to swing widdershins from position shown in Fig. 2 A and Fig. 5 A.

Yet shown in Fig. 5 B, inertia balance arm 50 is just swung by pin 74 so latch arm 51 widdershins owing to the cause of its inertia attempts to rest on the origin-location, causes in arm 61 injections 90.When horn shape part 26b cooperated with the jut 61a of arm 61, the bracket arm 26 that has begun counter-clockwise swing just was lockable shown in Fig. 5 B like that, and subsequently, further swing is moved and just stopped.As a result, magnetic head slider damages recorded data on the disk 23 with regard to not jumping on the disk 23 that has stopped.

After impulsive force disappeared, the magnetic flux that leaks out in the magnetic circuit of steel member 63 passive arm mechanisms 28 attracted, and caused latching arm 51 and swung clockwise, and this relevant moving in company with inertia balance arm 50 counter-clockwise swings is carried out, and is such as shown in Figure 6A.At last, inertial lock storage 29 can turn back on its origin-location shown in Fig. 6 B like that.Because latch arm 51 swing, latching of horn shape part 26b untied, and arm 61 shifts out track 90, caused occurring the state that bracket arm 26 can counter-clockwise swing.

The jut 60a that latchs arm 51 contacts with the flange portion 80a of shaft component 80, thereby circular linear contact 100 as shown in Figure 4 just is provided.In the same way, the jut 71a of inertia balance arm 50 contacts with the flange portion 81a of shaft component 81, thereby circular linear contact 101 just is provided.

After impacting disappearance, when inertial lock storage 29 from state shown in Fig. 5 C, when turning back to state shown in Fig. 6 B, latch arm 51 and just swing, overcome jut 60a and contacted the friction that is produced with circular linearity between the flange portion 80a owing to sliding via state shown in Fig. 6 A.This sliding friction, less than since the surface of correlation technique configuration shown in Figure 1 to the caused sliding friction of the contact on surface.In addition, inertia balance arm 50 is swung owing to sliding, and has overcome jut 71a and has contacted the friction that is produced with circular linearity between the flange portion 81a.This sliding friction, less than since the surface to the caused sliding friction of the contact on surface.Therefore, this condition has been arranged, the slip of latching arm 51 and inertia balance arm 50 just becomes smooth and easy, thereby inertial lock storage 29 just energy non-fault ground turns back to state shown in Fig. 6 B from state shown in Fig. 5 C via state shown in Fig. 6 A.Correspondingly, bracket arm 26 is swung with regard to responding load, has guaranteed the reliability service of hard disk drive 20.

In addition, because the cross-sectional profile of jut 61a and 71a is semicircular but not leg-of-mutton, how many wearing and tearing just can not appear, thus seldom can be owing to wearing and tearing produce dust.

If inertia balance arm 50 is positioned to such an extent that be catotropic, the jut 60b that latchs on the arm 51 will contact with the inside surface of lid 30, so just form circular linear contact 110.In the same way, the jut 71a of inertia balance arm 50 just contacts with the inside surface of lid 30, thereby circular linear contact is provided.Correspondingly, latch arm 51 and inertia balance arm 50 bears friction, this friction is less than the friction of surface to the surface contact.Therefore, latch arm 51 and inertia balance arm 50 and slide, thereby guarantee that inertial lock storage 29 from state shown in Fig. 5 C, turns back to state shown in Fig. 6 B via state shown in Fig. 6 A with regard to forming smoothly.

The configuration that the mobile friction of sliding is reduced of the present invention can be applied under a kind of situation, in this case, is used to latch the member of bracket arm 26, is along straightaway, rather than swings round set axle.

The variant of the bearing that latchs arm 51 and inertia balance arm 50 is described hereinafter.

The synoptic diagram of Fig. 7 A and 7B, first variant of demonstration bearing.Fig. 7 A has shown bearing 120, and this bearing provides discontinuous linear contact.Bearing 120 comprises jut 121a, 121b and 121c, and they are discontinuous each other.Jut 121a, 121b and 121c have semicircular cross-sectional profile, and have formed the arc of settling by equal intervals along periphery.This bearing 120 like that, contacts with flange portion 80a with its arc 122a, 122b and 122c shown in Fig. 7 B, and discontinuous linear contact so just is provided.Bearing 120 slides on flange portion 80a and goes up and the friction of generation, comes compared with the friction of surface to the contact generation on surface, has been reduced.

The synoptic diagram of Fig. 8 A and 8B, second variant of demonstration bearing.Fig. 8 A has shown bearing 130, and this bearing provides the point type contact.Bearing 130 comprises hemisphere 131a, 131b and 131c, and they are settled by equal intervals along periphery.Bearing 130 like that, contacts with flange portion 80a with its those 132a, 132b and 132c shown in Fig. 8 B, and the point type contact so just is provided.Bearing 130 slides on flange portion 80a and goes up and the friction of generation, comes compared with the friction of surface to the contact generation on surface, has been reduced.

The synoptic diagram of Fig. 9 A and 9B, the 3rd variant of demonstration bearing.Fig. 9 A has shown bearing 140, and it comprises curved surfaces part 142a, 142b and the 142c with flat top surface, and they are separated by depressed part 141 on circular edge and settle by equal intervals.Curved surfaces part 142a, 142b and 142c are discontinuous each other.Bearing 140 like that, contacts with flange portion 80a with its those discontinuous surperficial 143a, 143b and 143c shown in Fig. 9 B.Bearing 140 slides on flange portion 80a and goes up and the friction of generation, comes compared with the friction of surface to the contact generation on surface, has been reduced.

Hereinafter, be with reference to Figure 10 A to 10C, illustrate that lid and supporting latch the variant of the shaft component of arm.

This variant is adjusted to a kind of configuration, to be formed at the jut on shaft component and the lid, provides linear contact.

Shown in Figure 10 A, 10B and 10C, latch the bearing 12a of arm 12, have surface 12a1 of the circular, flat on bottom end and top end and 12a2 respectively.

Shown in Figure 10 A, 10B and 10C, be furnished with the shaft component 80A of flange portion 80Aa, have the jut 80Aa1 that is formed on the flange portion 80Aa, the jut 80Aa1 on this part for annular and have along the outstanding semi-circular cross-section profile of Z1 direction.The circular, flat surface 12a2 that latchs the bearing 12a of arm 12 contacts with annular projection 80Aa1, thereby forms linear contact.In the case, bearing 12a slides on flange portion 80Aa and goes up and the friction of generation, comes compared with the friction of surface to the contact generation on surface, has been reduced.

Shown in Figure 10 A, 10B and 10C, lid 30A has the locational annular projection 30Aa that is formed at facing to bearing 12a place, at this locational annular projection 30Aa, has along the outstanding semicircular cross-sectional profile of Z2 direction.

If hard disk drive 20 is catotropic, the circular, flat surface 12a1 that latchs the bearing 12a of arm 12 will contact with annular projection 30Aa, thereby forms linear contact.In the case, bearing 12a slides on lid 30A and goes up and the friction of generation, comes compared with the friction of surface to the contact generation on surface, has been reduced.

Hereinafter, a variant that latch arm is described with reference to Figure 11.

The arm 51A that latchs shown in Figure 11, its structure form is, when the leaked magnetic flux amount attracts in latching arm 51A passive arm mechanism 28, the clockwise influence of attractive force that it has been increased.

The configuration that latchs arm 51A is identical with the configuration that latchs arm 51 shown in Figure 3 basically, and its counterpart adds that with same label suffix " A " represents.Latching arm 51 is die casting products of a kind of two parts.A part except jut 62Ab is at first made by the die casting of synthetic resin, and then, the jut 62Ab that shows with shade is made by the die casting of the synthetic resin that has mixed metallic particles, and this metallic particles represents magnetic.In this kind configuration, do not adopt U-shaped steel member 63 shown in Figure 3.

Because jut 62Ab is die casting, just can form Any shape, like this with regard to provide compared with the fit structure with steel member 63 come bigger width ( Latitude).And, so also provide the foundation for the accuracy of improving shape and size.Therefore, on the conventional and customary position shown in Figure 12 A, the gap g10 between jut 62Ab and the actuator 28 can be set to such an extent that be narrower than gap g1 shown in Fig. 5 A.In proportion, the gap g11 between jut 62Ab shown in Figure 12 B and the actuator 28, this gap runs into when impacting and is observed when inertial lock storage 29 is in operation, and is just narrower than the g2 of gap shown in Fig. 5 C.As a result, the magnetic flux that leaks out in the actuator 28 latchs the situation of arm 51 and comes compared with employing shown in Figure 3, just with more intense power, attract to latch arm 51A clockwise.

Correspondingly, after impulsive force disappeared, it was just such shown in Figure 12 A to latch arm 51A, swings and return its origin-location.

In addition, the present invention is not limited to these embodiment, and only otherwise deviate from scope of the present invention, just can carry out various changes and modification.

The application proposes according to the 2001-343655 number Japanese previous application that submit to Jap.P. office November 8 calendar year 2001, and at this, the whole contents of this application in the lump as a reference.

Claims (8)

1. disk set comprises:

A disk that wherein writes down information;

A bracket arm has disposed magnetic head slider on its tip, and this magnetic head slider is moving above this disk during the read/write operation, and is placed in withdrawing from the position outside this disk zone at this disk set interval;

A support plinth; And

An inertial lock storage, when this disk set is subjected to impacting, its impact power on above-mentioned support plinth is responded and is slided into from the origin-location and to latch the position, so that pin above-mentioned bracket arm, and after this impulsive force disappears, on this support plinth, slide into the origin-location owing to unclamp this bracket arm from latching the position, wherein this support plinth and this inertial lock storage are raised part by at least one and are contacted with each other, and this is raised part and prevents from by single surface contacting of surface to be dominated between support plinth and the inertial lock storage.

2. disk set according to claim 1, it is characterized in that: this inertial lock storage is swung round shaft component, and have a bearing that is supported by this shaft component and on this support plinth, slide, this bearing have with this support plinth form linear contact raise part.

3. disk set according to claim 2 is characterized in that: this bearing has the part of raising of annular, and this part forms linear the contact with this support plinth.

4. disk set according to claim 1, it is characterized in that: this inertial lock storage is swung round shaft component, and have the bearing that is supported by this shaft component and on this support plinth, slide, and this bearing has a plurality of juts, and these juts form point type with this support plinth and contact.

5. disk set according to claim 1, it is characterized in that: this inertial lock storage is swung round shaft component, and has a bearing that is supported by this shaft component and on this support plinth, slide, this bearing has a plurality of parts of raising, and each this part forms surface contacting the surface with this support plinth.

6. disk set according to claim 1, it is characterized in that: this inertial lock storage is swung round shaft component, and have a bearing that is supported by this shaft component and on this support plinth, slide, this support plinth have with this bearing form linear contact raise part.

7. disk set according to claim 1, also comprise a magnetic circuit that drives above-mentioned bracket arm, it is characterized in that: the inertial lock storage comprises with synthetic resin and has mixed the part that the metallic particles corresponding with magnetic made, owing to after being attracted to disappear by the magnetic flux that this magnetic circuit produced, this inertial lock storage turns back to the origin-location from latching the position in above-mentioned impulsive force.

8. disk set comprises:

A disk that wherein writes down information;

A bracket arm has disposed magnetic head slider on its tip, and this magnetic head slider is moving above this disk during the read/write operation, and is placed in withdrawing from the position outside this disk zone at this disk set interval;

A magnetic circuit that drives this bracket arm;

A support plinth; And

An inertial lock storage; when this disk set is subjected to impacting; its impact power on above-mentioned support plinth is responded and is slided into from the origin-location and to latch the position; so that pin above-mentioned bracket arm; and after this impulsive force disappears; owing to unclamping this bracket arm and in response to an attractive force; on this support plinth, slide into the origin-location from latching the position; this inertial lock storage comprises with synthetic resin and mixed the part that metallic particles is made, and this metallic particles is responded magnetic that this magnetic circuit produces so that produce above-mentioned attractive force.

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